#![feature(thread_local)] #![feature(const_btree_new)] #![allow(non_camel_case_types)] #![allow(clippy::missing_safety_doc)] /// Call this somewhere to force Rust to link this module. /// The call doesn't need to execute, just exist. /// /// See https://github.com/rust-lang/rust/issues/47384 pub fn init() {} // PTHREAD LAYER TO CALL LIBCTRU #[no_mangle] pub unsafe extern "C" fn pthread_create( _native: *mut libc::pthread_t, _attr: *const libc::pthread_attr_t, _f: extern "C" fn(_: *mut libc::c_void) -> *mut libc::c_void, _value: *mut libc::c_void, ) -> libc::c_int { 1 } #[no_mangle] pub unsafe extern "C" fn pthread_join( _native: libc::pthread_t, _value: *mut *mut libc::c_void, ) -> libc::c_int { 1 } #[no_mangle] pub unsafe extern "C" fn pthread_detach(_thread: libc::pthread_t) -> libc::c_int { 1 } #[no_mangle] pub unsafe extern "C" fn pthread_attr_init(_attr: *mut libc::pthread_attr_t) -> libc::c_int { 1 } #[no_mangle] pub unsafe extern "C" fn pthread_attr_destroy(_attr: *mut libc::pthread_attr_t) -> libc::c_int { 1 } #[no_mangle] pub unsafe extern "C" fn pthread_attr_setstacksize( _attr: *mut libc::pthread_attr_t, _stack_size: libc::size_t, ) -> libc::c_int { 1 } #[no_mangle] pub unsafe extern "C" fn sched_yield() -> libc::c_int { 1 } #[no_mangle] pub unsafe extern "C" fn pthread_cond_init( cond: *mut libc::pthread_cond_t, _attr: *const libc::pthread_condattr_t, ) -> libc::c_int { ctru_sys::CondVar_Init(cond as _); 0 } #[no_mangle] pub unsafe extern "C" fn pthread_cond_signal(cond: *mut libc::pthread_cond_t) -> libc::c_int { ctru_sys::CondVar_WakeUp(cond as _, 1); 0 } #[no_mangle] pub unsafe extern "C" fn pthread_cond_broadcast(cond: *mut libc::pthread_cond_t) -> libc::c_int { ctru_sys::CondVar_WakeUp(cond as _, -1); 0 } #[no_mangle] pub unsafe extern "C" fn pthread_cond_wait( cond: *mut libc::pthread_cond_t, lock: *mut libc::pthread_mutex_t, ) -> libc::c_int { ctru_sys::CondVar_Wait(cond as _, lock as _); 0 } #[no_mangle] pub unsafe extern "C" fn pthread_cond_timedwait( cond: *mut libc::pthread_cond_t, lock: *mut libc::pthread_mutex_t, abstime: *const libc::timespec, ) -> libc::c_int { // libctru expects a duration, but we have an absolute timestamp. // Convert to a duration before calling libctru. // Get the current time so we can make a duration let mut now = libc::timeval { tv_sec: 0, tv_usec: 0, }; let r = libc::gettimeofday(&mut now, ptr::null_mut()); if r != 0 { return r; } // Calculate the duration let duration_nsec = (*abstime) .tv_sec // Get the difference in seconds .saturating_sub(now.tv_sec) // Convert to nanoseconds .saturating_mul(1_000_000_000) // Add the difference in nanoseconds .saturating_add((*abstime).tv_nsec as i64) .saturating_sub(now.tv_usec as i64 * 1_000) // Don't go negative .max(0); let r = ctru_sys::CondVar_WaitTimeout(cond as _, lock as _, duration_nsec); // CondVar_WaitTimeout returns a boolean which is true (nonzero) if it timed out if r == 0 { 0 } else { libc::ETIMEDOUT } } #[no_mangle] pub unsafe extern "C" fn pthread_cond_destroy(_cond: *mut libc::pthread_cond_t) -> libc::c_int { 0 } #[no_mangle] pub unsafe extern "C" fn pthread_mutexattr_init( _attr: *mut libc::pthread_mutexattr_t, ) -> libc::c_int { 0 } #[no_mangle] pub unsafe extern "C" fn pthread_mutexattr_settype( attr: *mut libc::pthread_mutexattr_t, _type: libc::c_int, ) -> libc::c_int { let attr: *mut libc::c_int = attr as _; *attr = _type as _; 0 } #[no_mangle] pub unsafe extern "C" fn pthread_mutex_init( lock: *mut libc::pthread_mutex_t, attr: *const libc::pthread_mutexattr_t, ) -> libc::c_int { let lock = lock as *mut u8; let attr: libc::c_int = *(attr as *const libc::c_int); if attr == libc::PTHREAD_MUTEX_NORMAL { ctru_sys::LightLock_Init(lock as _); } else if attr == libc::PTHREAD_MUTEX_RECURSIVE { ctru_sys::RecursiveLock_Init(lock as _) } *(lock.offset(39)) = attr as u8; 0 } #[no_mangle] pub unsafe extern "C" fn pthread_mutex_destroy(_lock: *mut libc::pthread_mutex_t) -> libc::c_int { 0 } #[no_mangle] pub unsafe extern "C" fn pthread_mutex_lock(lock: *mut libc::pthread_mutex_t) -> libc::c_int { let lock = lock as *const u8; if *(lock.offset(39)) as u8 == libc::PTHREAD_MUTEX_NORMAL as u8 { ctru_sys::LightLock_Lock(lock as _); } else if *(lock.offset(39)) as u8 == libc::PTHREAD_MUTEX_RECURSIVE as u8 { ctru_sys::RecursiveLock_Lock(lock as _); } 0 } #[no_mangle] pub unsafe extern "C" fn pthread_mutex_trylock(lock: *mut libc::pthread_mutex_t) -> libc::c_int { let lock = lock as *const u8; if *(lock.offset(39)) as u8 == libc::PTHREAD_MUTEX_NORMAL as u8 { return ctru_sys::LightLock_TryLock(lock as _); } else if *(lock.offset(39)) as u8 == libc::PTHREAD_MUTEX_RECURSIVE as u8 { return ctru_sys::RecursiveLock_TryLock(lock as _); } -1 } #[no_mangle] pub unsafe extern "C" fn pthread_mutex_unlock(lock: *mut libc::pthread_mutex_t) -> libc::c_int { let lock = lock as *const u8; if *(lock.offset(39)) as u8 == libc::PTHREAD_MUTEX_NORMAL as u8 { ctru_sys::LightLock_Unlock(lock as _); } else if *(lock.offset(39)) as u8 == libc::PTHREAD_MUTEX_RECURSIVE as u8 { ctru_sys::RecursiveLock_Unlock(lock as _); } 0 } #[no_mangle] pub unsafe extern "C" fn pthread_mutexattr_destroy( _attr: *mut libc::pthread_mutexattr_t, ) -> libc::c_int { 0 } struct rwlock_clear { mutex: libc::pthread_mutex_t, cvar: i32, num_readers: i32, writer_active: bool, initialized: bool, } /// Initializes the rwlock internal members if they weren't already fn init_rwlock(lock: *mut libc::pthread_rwlock_t) { let lock = lock as *mut rwlock_clear; unsafe { if !(*lock).initialized { let mut attr = std::mem::MaybeUninit::::uninit(); pthread_mutexattr_init(attr.as_mut_ptr()); let mut attr = attr.assume_init(); pthread_mutexattr_settype(&mut attr, libc::PTHREAD_MUTEX_NORMAL); pthread_mutex_init(&mut (*lock).mutex, &attr); pthread_cond_init(&mut (*lock).cvar as *mut i32 as *mut _, core::ptr::null()); (*lock).num_readers = 0; (*lock).writer_active = false; (*lock).initialized = true; } } } #[no_mangle] pub unsafe extern "C" fn pthread_rwlock_init( lock: *mut libc::pthread_rwlock_t, _attr: *const libc::pthread_rwlockattr_t, ) -> libc::c_int { init_rwlock(lock); 0 } #[no_mangle] pub unsafe extern "C" fn pthread_rwlock_destroy(_lock: *mut libc::pthread_rwlock_t) -> libc::c_int { 0 } #[no_mangle] pub unsafe extern "C" fn pthread_rwlock_rdlock(lock: *mut libc::pthread_rwlock_t) -> libc::c_int { init_rwlock(lock); let lock = lock as *mut rwlock_clear; pthread_mutex_lock(&mut (*lock).mutex); while (*lock).writer_active { pthread_cond_wait(&mut (*lock).cvar as *mut i32 as _, &mut (*lock).mutex); } (*lock).num_readers += 1; pthread_mutex_unlock(&mut (*lock).mutex); 0 } #[no_mangle] pub unsafe extern "C" fn pthread_rwlock_tryrdlock( lock: *mut libc::pthread_rwlock_t, ) -> libc::c_int { init_rwlock(lock); let lock = lock as *mut rwlock_clear; if pthread_mutex_trylock(&mut (*lock).mutex) != 0 { return -1; } while (*lock).writer_active { pthread_cond_wait(&mut (*lock).cvar as *mut i32 as _, &mut (*lock).mutex); } (*lock).num_readers += 1; pthread_mutex_unlock(&mut (*lock).mutex); 0 } #[no_mangle] pub unsafe extern "C" fn pthread_rwlock_wrlock(lock: *mut libc::pthread_rwlock_t) -> libc::c_int { init_rwlock(lock); let lock = lock as *mut rwlock_clear; pthread_mutex_lock(&mut (*lock).mutex); while (*lock).writer_active || (*lock).num_readers > 0 { pthread_cond_wait(&mut (*lock).cvar as *mut i32 as _, &mut (*lock).mutex); } (*lock).writer_active = true; pthread_mutex_unlock(&mut (*lock).mutex); 0 } #[no_mangle] pub unsafe extern "C" fn pthread_rwlock_trywrlock( lock: *mut libc::pthread_rwlock_t, ) -> libc::c_int { init_rwlock(lock); let lock = lock as *mut rwlock_clear; if pthread_mutex_trylock(&mut (*lock).mutex) != 0 { return -1; } while (*lock).writer_active || (*lock).num_readers > 0 { pthread_cond_wait(&mut (*lock).cvar as *mut i32 as _, &mut (*lock).mutex); } (*lock).writer_active = true; pthread_mutex_unlock(&mut (*lock).mutex); 0 } #[no_mangle] pub unsafe extern "C" fn pthread_rwlock_unlock(lock: *mut libc::pthread_rwlock_t) -> libc::c_int { init_rwlock(lock); let lock = lock as *mut rwlock_clear; pthread_mutex_lock(&mut (*lock).mutex); // If there are readers and no writer => Must be a reader if (*lock).num_readers > 0 && !(*lock).writer_active { (*lock).num_readers -= 1; // If there are no more readers, signal to a waiting writer if (*lock).num_readers == 0 { pthread_cond_signal(&mut (*lock).cvar as *mut i32 as _); } // If there are no readers and a writer => Must be a writer } else if (*lock).num_readers == 0 && (*lock).writer_active { (*lock).writer_active = false; pthread_cond_broadcast(&mut (*lock).cvar as *mut i32 as _); } pthread_mutex_unlock(&mut (*lock).mutex); 0 } #[no_mangle] pub unsafe extern "C" fn pthread_rwlockattr_init( _attr: *mut libc::pthread_rwlockattr_t, ) -> libc::c_int { 0 } #[no_mangle] pub unsafe extern "C" fn pthread_rwlockattr_destroy( _attr: *mut libc::pthread_rwlockattr_t, ) -> libc::c_int { 0 } // THREAD KEYS IMPLEMENTATION FOR RUST STD use spin::rwlock::RwLock; use std::collections::BTreeMap; use std::ptr; use std::sync::atomic::{AtomicUsize, Ordering}; type Key = usize; type Destructor = unsafe extern "C" fn(*mut libc::c_void); static NEXT_KEY: AtomicUsize = AtomicUsize::new(1); // This is a spin-lock RwLock which yields the thread every loop static KEYS: RwLock>, spin::Yield> = RwLock::new(BTreeMap::new()); #[thread_local] static mut LOCALS: BTreeMap = BTreeMap::new(); fn is_valid_key(key: Key) -> bool { KEYS.read().contains_key(&(key as Key)) } #[no_mangle] pub unsafe extern "C" fn pthread_key_create( key: *mut libc::pthread_key_t, destructor: Option, ) -> libc::c_int { let new_key = NEXT_KEY.fetch_add(1, Ordering::SeqCst); KEYS.write().insert(new_key, destructor); *key = new_key as libc::pthread_key_t; 0 } #[no_mangle] pub unsafe extern "C" fn pthread_key_delete(key: libc::pthread_key_t) -> libc::c_int { match KEYS.write().remove(&(key as Key)) { // We had a entry, so it was a valid key. // It's officially undefined behavior if they use the key after this, // so don't worry about cleaning up LOCALS, especially since we can't // clean up every thread's map. Some(_) => 0, // The key is unknown None => libc::EINVAL, } } #[no_mangle] pub unsafe extern "C" fn pthread_getspecific(key: libc::pthread_key_t) -> *mut libc::c_void { if let Some(&value) = LOCALS.get(&(key as Key)) { value as _ } else { // Note: we don't care if the key is invalid, we still return null ptr::null_mut() } } #[no_mangle] pub unsafe extern "C" fn pthread_setspecific( key: libc::pthread_key_t, value: *const libc::c_void, ) -> libc::c_int { let key = key as Key; if !is_valid_key(key) { return libc::EINVAL; } LOCALS.insert(key, value as *mut _); 0 }